EPA"s stationary source combustion control technology program

FY 1976
  • 46 Pages
  • 0.95 MB
  • English
Environmental Protection Agency, Office of Research and Development, Industrial Environmental Research Laboratory, for sale by the National Technical Information Service , Research Triangle Park, N.C, Springfield, Va
Combustion -- Research, Pollution control equi
Statementby Acurex Corporation, Aerotherm Division
SeriesInteragency energy-environment research and development program report ; EPA-600/7-77-077
ContributionsUnited States. Environmental Protection Agency. Office of Research and Development, Industrial Environmental Research Laboratory (Research Triangle Park, N.C.)
The Physical Object
Paginationiv, 46 p. :
ID Numbers
Open LibraryOL14888129M

EPA/ July ERA'S STATIONARY SOURCE COMBUSTION CONTROL TECHNOLOGY PROGRAM--FY by Acurex Corporation/Aerotherm Division Clyde Avenue Mountain View, California Contract No.

Program Element No. EHEA EPA EPAs stationary source combustion control technology program book Officer: Joshua S. Bowen Industrial Environmental Research Laboratory Office of Energy, Minerals.

Get this from a library. EPA's stationary source combustion control technology program: FY [Acurex Corporation. Aerotherm Division.; United States. Environmental Protection Agency. Office of Research and Development.; Industrial Environmental Research Laboratory (Research Triangle Park.

You are here: EPA Home Stationary Internal Combustion Engines; Stationary Internal Combustion Engines. Information about Stationary Internal Combustion Engines has moved to. gases from combustion or industrial processes.

Several EPA regulatory programs (e.g., Acid Rain Program, New Source Performance Standards, Greenhouse Gas Reporting Program [GHGRP], and Maximum Available Control Technology Standards) have provisions regarding CEMS. CEMS can be used to measure CO 2 emissions. Performance Testing for Combustion Control Devices Manufacturers' Performance Test New Source Performance Standards (NSPS) OOOO, OOOOa, and Maximum Achievable Control Technology HH/HHH This July document is a list of combustion control device models that have been tested by the manufacturer.

Stationary sources of air pollution, including factories, refineries, boilers, and power plants, emit a variety of air pollutants.

The Clean Air Act directs EPA to control these emissions by developing and implementing standards and guidelines. Economic Impact Analysis of the Final Stationary Combustion Turbines NESHAP: Final Report. View the supporting documents in the docket folder for the rule to find additional related documents to the rule.

Related Rules. Stationary Gas and Combustion Turbines: New Source Performance Standards (NSPS) - 40 CFR 60 Subparts GG & KKKK. This page contains the stationary sources of air pollution for the energy, engines, and combustion industries, and their corresponding air pollution regulations.

To learn more about the regulations for each industry, just click on the links below. Stationary Internal Combustion Engines are common combustion sources that collectively can have a significant impact on air quality and public health.

They emit air toxics, volatile organic compounds and conventional air pollutants. CONTROL TECHNIQUES FOR CARBON MONOXIDE EMISSIONS FROM STATIONARY SOURCES U. DEPARTMENT OF HEALTH, EDUCATION, AND WELFARE Public Health Service Environmental Health Service National Air Pollution Control Administration Washington, D.C.

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March For sale by the Superintendent of Documents, U.S. Government Printing Office, Washington. Control Techniques With a Wide Range of Emissions Performance Levels 3.

Establishment of the Control Options Hierarchy. EPA/F Air Pollution Control Technology Fact Sheet EPA-CICA Fact Sheet 1 SCR Name of Technology: Selective Catalytic Reduction (SCR) Type of Technology: Control Device - Chemical reduction via a reducing agent and a catalyst.

Details EPA"s stationary source combustion control technology program FB2

Applicable Pollutants: Nitrogen Oxides (NOx) Achievable Emission Limits/Reductions: SCR is capable of NOx reduction efficiencies in the range of.

Stationary Fuel Combustion Sources. Subpart C—General Stationary Fuel Combustion Sources § Definition of the source category. (a) Stationary fuel combustion sources are devices that combust solid, liquid, or gaseous fuel, generally for the purposes of producing electricity, generating steam, or providing useful heat or energy for industrial, commercial, or institutional use, or.

(a) MAJOR SOURCEThe term "major source" means any stationary source or group of stationary sources located within a contiguous area and under common control that emits or has the potential to emit considering controls, in the aggregate, 10 tons per year or more of any hazardous air pollutant or 25 tons per year or more of any combination of.

REFERENCES 1. MASON, H. and SHIMZU, A. B., Briefing document for the maximum stationary source technology (MSST) systems program for NOx control, extracted from Aero Therm Final ReportEPA Contract No.October 2.

annually. A “major” source has emissions greater than the “area” source levels. Typically major sources have more stringent requirements.

Description EPA"s stationary source combustion control technology program PDF

The EPA has classified over 70 area source categories – examples would be a stationary reciprocating internal combustion engine (RICE), or a boiler. Each of these categories has special NESHAP (National. The "Fundamental Combustion Research Applied to Pollution Control" (FCR) program objectives are to provide a focused program of basic engineering research designed to: • Provide the EPA/CRB technology development programs with the necessary understanding of basic combustion behavior required to achieve the minimization of NO from stationary.

4/00 Stationary Internal Combustion Sources Stationary Gas Turbines General1 Gas turbines, also called “combustion turbines”, are used in a broad scope of applications including electric power generation, cogeneration, natural gas transmission, and various process applications.

References 1. Environmental Protection Agency (EPA). Proceedings of the Second Stationary Source Combustion Symposium, volume II.

Utility and Large Industrial Boiler. EPA/b. Electric Power Research Institute (EPRI). Proceedings: Second NO, Control Technology Seminar. EPRI/FP SR. Mobley, J. David. Stationary reciprocating internal combustion engines use either compression ignition (CI) or spark ignition (SI) in order to induce combustion within the cylinders.

CI RICE typically run on diesel fuel, while SI RICE typically operate on lighter fuels (e.g. gasoline, propane, natural gas, biogas, etc). EPRI Electric Power Research Institute £EPA May EPRI/EPA Joint Symposium on Stationary Combustion NOX Control Book 3: Thursday, Sessions 6A, 6B, 7A, 7B Sponsored by Electric Power Research Institute Generation Group Air Quality Control Program U.S.

Environmental Protection Agency Air and Energy Engineering Research Laboratory Combustion Research Branch. Stationary Reciprocating Internal Combustion Engines (RICE). These engines are in use throughout the U.S. In general industry, these engines provide shaft power to drive process equipment, compressors, pumps, standby generator sets and other machinery.

In agricultural they are used to. State and Territorial Air Pollution Program Administrators and the Association of Local Air Pollution Control Officials (STAPPA/ALAPCO) and the U.S. EPA. Emissions Inventory Improvement Program (EIIP) Vol. VIII, Chapter 2, Methods For Estimating Methane And Nitrous Oxide Emissions From Stationary Combustion, August 22 CLIMATE LEADERS GHG.

The Clean Air Act requires EPA to regulate emissions of hazardous air pollutants from a published list of industrial sources referred to as "source categories." As required under the Act, EPA has developed a list of source categories that must meet control technology requirements for these toxic air pollutants.

Stationary Gas Turbines: Final Section - Supplement F, April (PDF 84K) ; Background Document (PDF K) ; Related Information - The data that supports the emissions factors are presented in summary in the background report and are reported more completely in a database.

The database is a zipped MS Access file. rules and information about maximum achievable control technology (MACT) for hazardous waste combustors Jump to main content. Wastes - Hazardous Waste - Treatment & Disposal. In July of the Environmental Protection Agency (EPA) finalized plans to regulate emissions from stationary diesel engines.

Beginning January 1, the New Source Performance Standards (NSPS) harmonized emission requirements for stationary diesel engines with existing EPA non-road regulations. California Environmental Protection Agency AIR RESOURCES BOARD DETERMINATION OF REASONABLY AVAILABLE CONTROL TECHNOLOGY AND BEST AVAILABLE RETROFIT CONTROL TECHNOLOGY FOR STATIONARY SPARK-IGNITED INTERNAL COMBUSTION ENGINES November Process Evaluation Section Emissions Assessment Branch Stationary Source Division P.O.

This chapter provides information on emissions control technologies for stationary heat and power systems, giving background on energy usage in the United States, fossil fuel usage in boilers and combustion turbines for heat and power production, characteristics and composition of fossil fuels, specifically coal, liquid fuels (petroleum.

SCR is a catalytic post-combustion control technology designed to control NO. emissions. The catalyst is composed of a support system with an external catalyst coating.

The coating material is typically titanium dioxide (TiO. 2), vanadium pentoxide (V. 5), or zeolite. The ammonia, in this case. Requirements for replacement or substantial alteration of emission control technology at an existing stationary source.

HTML PDF: Standards of performance for new sources. HTML PDF: Increment protection. HTML PDF: Special protection requirements for federal Class I areas. HTML PDF: TABLE 3 MAJOR STATIONARY INDUSTRIAL SOURCES OF PARTICULATES (WEIGHT BASIS)20 United States - Source Fuel combustion Coal Electric utility Pulverized Stoker Cyclone Industrial boilers Pulverized Stoker Cyclone Fuel oil Natural gas and LPG Crushed stone, sand, and gravel Grain elevators and other agricultural operations Iron and steel.

The most effective control device, technique, or emission limit which has been achieved in practice for such category or class of source.

Any other emission control technique [, alternative basic equipment, different fuel or process] found [after public hearing] by the Air Pollution Control Officer to be technologically feasible and cost effective for such class or category of sources [or for.